{
"item_title" : "Reliability Design of Mechanical Systems",
"item_author" : [" Seongwoo Woo "],
"item_description" : "1 Introduction to Reliability Design of Mechanical/Civil System1.1 Introduction1.2 Development of Mechanical Product2 Reliability disaster and of its assessment Significance2.1 Introduction2.2 Reliability disasters2.3 Development of Reliability Methodologies in History 3 Modern definitions in reliability engineering3.1 Introduction3.2 Reliability and Bathtub Curve3.3 Fundamentals in Statistics and Probability Theory3.4 Probability Distributions3.5 Sample Distributions3.6 Load-strength interference3.7 Reliability lifetime metrics3.8 Design of experiment (DOE) 4 Failure mechanics, Design and Reliability testing4.1 Introduction4.2 Failure mechanics and designs4.3 Reliability Block Diagram4.4 Failure mode and effect analysis (FMEA)4.5 Fault Tree Analysis (FTA)4.6 Robust Design (or Taguchi methods)4.7 Reliability Testing 5 Structures (or Mechanisms) and Load Analysis5.1 Introduction5.2 Mechanical structures (and its mechanisms)5.3 Modeling of Mechanical System5.4 Bond graph modeling5.5 Load Spectrum and Rain-flow Counting 6 Fluid Motion and Mechanical Vibration6.1 Introduction6.2 Fluid modeling6.3 Viscous flow and boundary layers6.4 Parametric Accelerated Life Testing of fluid systems6.5 Mechanical Vibrations 7 Mechanical System Failure7.1 Introduction7.2 Strength of Product Materials7.3 Mechanism of Slip7.4 Fatigue failure7.5 Facture failure7.6 Stress-strength analysis7.7 Failure Analysis7.8 Corrosion Materials 8 Parametric Accelerated Life Testing in Mechanical System8.1 Introduction8.2 Mechanical Product Breakdown8.3 Reliability Design in Mechanical System8.4 Reliability Targeting of Mechanical Product8.5 Failure Mechanics, Design and Reliability Testing8.6 Parametric Accelerated Life Testing8.7 The reliability design of mechanical system and its verification8.8 Testing equipment for quality and reliability 9 Parametric ALT and its Case studies9-1 Failure analysis and redesign of ice-maker9-2 Residential Sized Refrigerators during Transportation9-3 Water dispenser lever in a refrigerator9-4 Refrigerator compressor subjected to repetitive loads9-5 Hinge Kit System (HKS) in a Kimchi refrigerator9-6 Refrigerator drawer system9-7 Compressor suction reed valve9-8 Failure analysis and redesign of the evaporator tubing9-9 Improving the noise of mechanical compressor9-10 French refrigerator drawer system9-11 Improving reliability of the Hinge Kit System (HKS) in refrigerator 10 Parametric ALT: A Powerful Tool for future engineering development10.1 Introduction",
"item_img_path" : "https://covers1.booksamillion.com/covers/bam/9/81/137/238/9811372381_b.jpg",
"price_data" : {
"retail_price" : "109.99", "online_price" : "109.99", "our_price" : "109.99", "club_price" : "109.99", "savings_pct" : "0", "savings_amt" : "0.00", "club_savings_pct" : "0", "club_savings_amt" : "0.00", "discount_pct" : "10", "store_price" : ""
}
}
Reliability Design of Mechanical Systems : A Guide for Mechanical and Civil Engineers
by Seongwoo Woo
Other Available Formats
Overview
1 Introduction to Reliability Design of Mechanical/Civil System
1.1 Introduction
1.2 Development of Mechanical Product
2.1 Introduction
2.2 Reliability disasters
2.3 Development of Reliability Methodologies in History 3 Modern definitions in reliability engineering
3.1 Introduction
3.2 Reliability and Bathtub Curve
3.3 Fundamentals in Statistics and Probability Theory
3.4 Probability Distributions
3.5 Sample Distributions
3.6 Load-strength interference
3.7 Reliability lifetime metrics
3.8 Design of experiment (DOE) 4 Failure mechanics, Design and Reliability testing
4.1 Introduction
4.2 Failure mechanics and designs
4.3 Reliability Block Diagram
4.4 Failure mode and effect analysis (FMEA)
4.5 Fault Tree Analysis (FTA)
4.6 Robust Design (or Taguchi methods)
4.7 Reliability Testing 5 Structures (or Mechanisms) and Load Analysis
5.1 Introduction
5.2 Mechanical structures (and its mechanisms)
5.3 Modeling of Mechanical System
5.4 Bond graph modeling
5.5 Load Spectrum and Rain-flow Counting 6 Fluid Motion and Mechanical Vibration
6.1 Introduction
6.2 Fluid modeling
6.3 Viscous flow and boundary layers
6.4 Parametric Accelerated Life Testing of fluid systems
6.5 Mechanical Vibrations 7 Mechanical System Failure
7.1 Introduction
7.2 Strength of Product Materials
7.3 Mechanism of Slip
7.4 Fatigue failure
7.5 Facture failure
7.6 Stress-strength analysis
7.7 Failure Analysis
7.8 Corrosion Materials 8 Parametric Accelerated Life Testing in Mechanical System
8.1 Introduction
8.2 Mechanical Product Breakdown
8.3 Reliability Design in Mechanical System
8.4 Reliability Targeting of Mechanical Product
8.5 Failure Mechanics, Design and Reliability Testing
8.6 Parametric Accelerated Life Testing
8.7 The reliability design of mechanical system and its verification
8.8 Testing equipment for quality and reliability 9 Parametric ALT and its Case studies
9-1 Failure analysis and redesign of ice-maker
9-2 Residential Sized Refrigerators during Transportation
9-3 Water dispenser lever in a refrigerator
9-4 Refrigerator compressor subjected to repetitive loads
9-5 Hinge Kit System (HKS) in a Kimchi refrigerator
9-6 Refrigerator drawer system
9-7 Compressor suction reed valve
9-8 Failure analysis and redesign of the evaporator tubing
9-9 Improving the noise of mechanical compressor
9-10 French refrigerator drawer system
9-11 Improving reliability of the Hinge Kit System (HKS) in refrigerator 10 Parametric ALT: A Powerful Tool for future engineering development
10.1 Introduction
This item is Non-Returnable
Customers Also Bought
- 1
Details
- ISBN-13: 9789811372384
- ISBN-10: 9811372381
- Publisher: Springer
- Publish Date: August 2020
- Dimensions: 9.21 x 6.14 x 0.97 inches
- Shipping Weight: 1.47 pounds
- Page Count: 464
Related Categories
You May Also Like...
- 1
